MEMBRANE BIO REACTOR (MBR) PROCESS
Membrane bioreactor as the technology which is based on combination of membranes
and biological reactors used for treatment or resource recovery from wastewater. This
combines membrane separation with biological conversion which is then applied on
biocide separation, gas diffusion, extraction, bio-catalytic and electrochemical membrane
biological reactors. The membrane further has a magnificent impact on bio-solid
separation membrane biological reactors, which reject solid material developed by the
biological process. This type of membrane is used in some industries to transfer
degradable organic pollutants from hostile industrial wastewater via a non-porous silicon
membrane to a nutrient medium for subsequent biodegradation.
The membrane also gained popularity in the food and pharmaceutical industries, even
though it is majorly applied in wastewater treatment industries. MBR’s are said to operate
at low cross flow velocity and at low TMP.
Advantages
- High quality effluent – the water, after being treat nor tertiary treatment are needed, there are less pipes and valves, less equipment). MBRs also reduce the activated sludge treatment footprint by removing part of the liquid component of the mixed liquor. The concentrated waste is then treated in the activated sludge process.
- Independent HRT and SRT – sludge retention time (SRT) and hydraulic retention time (HRT) are completely independent since sludge solids are completely retained in the bioreactor, unlike in CAS where the biomass needs to be flocs into flocs which thention of the liquid.
- Consistent performance – mixed liquor suspended solids (MLSS), the organic content in the water, can be much higher than in CAS. Higher biomass concentration results in effective removal of biodegradable materials.
- Low sludge production – less sludge is produced and needs to be disposed less frequently than in CAS.
- Less sludge de watering – the sludge contains a high solid content.